/*
 * Copyright owned by the Transaction Processing Performance Council.
 *
 * A copy of the license is included under extension/tpch/dbgen/LICENSE
 * in this repository.
 *
 * You may not use this file except in compliance with the License.
 *
 * THE TPC SOFTWARE IS AVAILABLE WITHOUT CHARGE FROM TPC.
 */
#include <stdio.h>
#include <string.h>
#ifndef VMS
#include <sys/types.h>
#endif
#if defined(SUN)
#include <unistd.h>
#endif
#include "dbgen/dss.h" // @manual
#include "dbgen/dsstypes.h" // @manual

#include <math.h>
#include "dbgen/rng64.h" // @manual

#define LEAP_ADJ(yr, mnth) ((LEAP(yr) && (mnth) >= 2) ? 1 : 0)
#define JDAY_BASE 8035 /* start from 1/1/70 a la unix */
#define JMNTH_BASE (-70 * 12) /* start from 1/1/70 a la unix */
#define JDAY(date) ((date) - STARTDATE + JDAY_BASE + 1)
#define PART_SUPP_BRIDGE(tgt, p, s)                                           \
  {                                                                           \
    DSS_HUGE tot_scnt = ctx->tdefs[SUPP].base * ctx->scale_factor;            \
    tgt = (p + s * (tot_scnt / SUPP_PER_PART + (long)((p - 1) / tot_scnt))) % \
            tot_scnt +                                                        \
        1;                                                                    \
  }
#define V_STR(avg, seed, tgt) \
  tpch_a_rnd((int)(avg * V_STR_LOW), (int)(avg * V_STR_HGH), seed, tgt)
#define TEXT(avg, seed, tgt) \
  dbg_text(tgt, (int)(avg * V_STR_LOW), (int)(avg * V_STR_HGH), seed)
static void gen_phone PROTO((DSS_HUGE ind, char* target, seed_t* seed));

DSS_HUGE
rpb_routine(DSS_HUGE p) {
  DSS_HUGE price;

  price = 90000;
  price += (p / 10) % 20001; /* limit contribution to $200 */
  price += (p % 1000) * 100;

  return (price);
}

static void gen_phone(DSS_HUGE ind, char* target, seed_t* seed) {
  DSS_HUGE acode, exchg, number;

  RANDOM(acode, 100, 999, seed);
  RANDOM(exchg, 100, 999, seed);
  RANDOM(number, 1000, 9999, seed);

  sprintf(target, "%02d", (int)(10 + (ind % NATIONS_MAX)));
  sprintf(target + 3, "%03d", (int)acode);
  sprintf(target + 7, "%03d", (int)exchg);
  sprintf(target + 11, "%04d", (int)number);
  target[2] = target[6] = target[10] = '-';

  return;
}

long mk_cust(DSS_HUGE n_cust, customer_t* c, DBGenContext* ctx) {
  DSS_HUGE i;
  static int bInit = 0;
  static char szFormat[100];

  if (!bInit) {
    sprintf(szFormat, C_NAME_FMT, 9, &HUGE_FORMAT[1]);
    bInit = 1;
  }
  c->custkey = n_cust;
  sprintf(c->name, szFormat, C_NAME_TAG, n_cust);
  V_STR(C_ADDR_LEN, &ctx->Seed[C_ADDR_SD], c->address);
  c->alen = (int)strlen(c->address);
  RANDOM(i, 0, (nations.count - 1), &ctx->Seed[C_NTRG_SD]);
  c->nation_code = i;
  gen_phone(i, c->phone, &ctx->Seed[C_PHNE_SD]);
  RANDOM(c->acctbal, C_ABAL_MIN, C_ABAL_MAX, &ctx->Seed[C_ABAL_SD]);
  pick_str(&c_mseg_set, &ctx->Seed[C_MSEG_SD], c->mktsegment);
  TEXT(C_CMNT_LEN, &ctx->Seed[C_CMNT_SD], c->comment);
  c->clen = (int)strlen(c->comment);

  return (0);
}

/*
 * generate the numbered order and its associated lineitems
 */
void mk_sparse(DSS_HUGE i, DSS_HUGE* ok, long seq) {
  long low_bits;

  *ok = i;
  low_bits = (long)(i & ((1 << SPARSE_KEEP) - 1));
  *ok = *ok >> SPARSE_KEEP;
  *ok = *ok << SPARSE_BITS;
  *ok += seq;
  *ok = *ok << SPARSE_KEEP;
  *ok += low_bits;

  return;
}

long mk_order(DSS_HUGE index, order_t* o, DBGenContext* ctx, long upd_num) {
  DSS_HUGE lcnt;
  DSS_HUGE rprice;
  long ocnt;
  DSS_HUGE tmp_date;
  DSS_HUGE s_date;
  DSS_HUGE r_date;
  DSS_HUGE c_date;
  DSS_HUGE clk_num;
  DSS_HUGE supp_num;
  static char** asc_date = NULL;
  char tmp_str[2];
  char** mk_ascdate PROTO((void));
  int delta = 1;
  static int bInit = 0;
  static char szFormat[100];

  if (!bInit) {
    sprintf(szFormat, O_CLRK_FMT, 9, &HUGE_FORMAT[1]);
    bInit = 1;
  }
  if (asc_date == NULL)
    asc_date = mk_ascdate();
  mk_sparse(
      index, &o->okey, (upd_num == 0) ? 0 : 1 + upd_num / (10000 / UPD_PCT));
  if (ctx->scale_factor >= 30000)
    RANDOM64(o->custkey, O_CKEY_MIN, O_CKEY_MAX, &ctx->Seed[O_CKEY_SD]);
  else
    RANDOM(o->custkey, O_CKEY_MIN, O_CKEY_MAX, &ctx->Seed[O_CKEY_SD]);
  while (o->custkey % CUST_MORTALITY == 0) {
    o->custkey += delta;
    o->custkey = MIN(o->custkey, O_CKEY_MAX);
    delta *= -1;
  }

  RANDOM(tmp_date, O_ODATE_MIN, O_ODATE_MAX, &ctx->Seed[O_ODATE_SD]);
  strcpy(o->odate, asc_date[tmp_date - STARTDATE]);

  pick_str(&o_priority_set, &ctx->Seed[O_PRIO_SD], o->opriority);
  RANDOM(
      clk_num,
      1,
      MAX((ctx->scale_factor * O_CLRK_SCL), O_CLRK_SCL),
      &ctx->Seed[O_CLRK_SD]);
  sprintf(o->clerk, szFormat, O_CLRK_TAG, clk_num);
  TEXT(O_CMNT_LEN, &ctx->Seed[O_CMNT_SD], o->comment);
  o->clen = (int)strlen(o->comment);
#ifdef DEBUG
  if (o->clen > O_CMNT_MAX)
    fprintf(stderr, "comment error: O%d\n", index);
#endif /* DEBUG */
  o->spriority = 0;

  o->totalprice = 0;
  o->orderstatus = 'O';
  ocnt = 0;

  RANDOM(o->lines, O_LCNT_MIN, O_LCNT_MAX, &ctx->Seed[O_LCNT_SD]);
  for (lcnt = 0; lcnt < o->lines; lcnt++) {
    o->l[lcnt].okey = o->okey;
    ;
    o->l[lcnt].lcnt = lcnt + 1;
    RANDOM(o->l[lcnt].quantity, L_QTY_MIN, L_QTY_MAX, &ctx->Seed[L_QTY_SD]);
    RANDOM(o->l[lcnt].discount, L_DCNT_MIN, L_DCNT_MAX, &ctx->Seed[L_DCNT_SD]);
    RANDOM(o->l[lcnt].tax, L_TAX_MIN, L_TAX_MAX, &ctx->Seed[L_TAX_SD]);
    pick_str(&l_instruct_set, &ctx->Seed[L_SHIP_SD], o->l[lcnt].shipinstruct);
    pick_str(&l_smode_set, &ctx->Seed[L_SMODE_SD], o->l[lcnt].shipmode);
    TEXT(L_CMNT_LEN, &ctx->Seed[L_CMNT_SD], o->l[lcnt].comment);
    o->l[lcnt].clen = (int)strlen(o->l[lcnt].comment);
    if (ctx->scale_factor >= 30000)
      RANDOM64(
          o->l[lcnt].partkey, L_PKEY_MIN, L_PKEY_MAX, &ctx->Seed[L_PKEY_SD]);
    else
      RANDOM(o->l[lcnt].partkey, L_PKEY_MIN, L_PKEY_MAX, &ctx->Seed[L_PKEY_SD]);
    rprice = rpb_routine(o->l[lcnt].partkey);
    RANDOM(supp_num, 0, 3, &ctx->Seed[L_SKEY_SD]);
    PART_SUPP_BRIDGE(o->l[lcnt].suppkey, o->l[lcnt].partkey, supp_num);
    o->l[lcnt].eprice = rprice * o->l[lcnt].quantity;

    o->totalprice += ((o->l[lcnt].eprice * ((long)100 - o->l[lcnt].discount)) /
                      (long)PENNIES) *
        ((long)100 + o->l[lcnt].tax) / (long)PENNIES;

    RANDOM(s_date, L_SDTE_MIN, L_SDTE_MAX, &ctx->Seed[L_SDTE_SD]);
    s_date += tmp_date;
    RANDOM(c_date, L_CDTE_MIN, L_CDTE_MAX, &ctx->Seed[L_CDTE_SD]);
    c_date += tmp_date;
    RANDOM(r_date, L_RDTE_MIN, L_RDTE_MAX, &ctx->Seed[L_RDTE_SD]);
    r_date += s_date;

    strcpy(o->l[lcnt].sdate, asc_date[s_date - STARTDATE]);
    strcpy(o->l[lcnt].cdate, asc_date[c_date - STARTDATE]);
    strcpy(o->l[lcnt].rdate, asc_date[r_date - STARTDATE]);

    if (julian(r_date) <= CURRENTDATE) {
      pick_str(&l_rflag_set, &ctx->Seed[L_RFLG_SD], tmp_str);
      o->l[lcnt].rflag[0] = *tmp_str;
    } else
      o->l[lcnt].rflag[0] = 'N';

    if (julian(s_date) <= CURRENTDATE) {
      ocnt++;
      o->l[lcnt].lstatus[0] = 'F';
    } else
      o->l[lcnt].lstatus[0] = 'O';
  }

  if (ocnt > 0)
    o->orderstatus = 'P';
  if (ocnt == o->lines)
    o->orderstatus = 'F';

  return (0);
}

long mk_part(DSS_HUGE index, part_t* p, DBGenContext* ctx) {
  DSS_HUGE temp;
  long snum;
  DSS_HUGE brnd;
  static int bInit = 0;
  static char szFormat[100];
  static char szBrandFormat[100];

  if (!bInit) {
    sprintf(szFormat, P_MFG_FMT, 1, &HUGE_FORMAT[1]);
    sprintf(szBrandFormat, P_BRND_FMT, 2, &HUGE_FORMAT[1]);
    bInit = 1;
  }
  p->partkey = index;
  agg_str(&colors, (long)P_NAME_SCL, &ctx->Seed[P_NAME_SD], p->name);
  RANDOM(temp, P_MFG_MIN, P_MFG_MAX, &ctx->Seed[P_MFG_SD]);
  sprintf(p->mfgr, szFormat, P_MFG_TAG, temp);
  RANDOM(brnd, P_BRND_MIN, P_BRND_MAX, &ctx->Seed[P_BRND_SD]);
  sprintf(p->brand, szBrandFormat, P_BRND_TAG, (temp * 10 + brnd));
  p->tlen = pick_str(&p_types_set, &ctx->Seed[P_TYPE_SD], p->type);
  p->tlen = (int)strlen(p_types_set.list[p->tlen].text);
  RANDOM(p->size, P_SIZE_MIN, P_SIZE_MAX, &ctx->Seed[P_SIZE_SD]);
  pick_str(&p_cntr_set, &ctx->Seed[P_CNTR_SD], p->container);
  p->retailprice = rpb_routine(index);
  TEXT(P_CMNT_LEN, &ctx->Seed[P_CMNT_SD], p->comment);
  p->clen = (int)strlen(p->comment);

  for (snum = 0; snum < SUPP_PER_PART; snum++) {
    p->s[snum].partkey = p->partkey;
    PART_SUPP_BRIDGE(p->s[snum].suppkey, index, snum);
    RANDOM(p->s[snum].qty, PS_QTY_MIN, PS_QTY_MAX, &ctx->Seed[PS_QTY_SD]);
    RANDOM(p->s[snum].scost, PS_SCST_MIN, PS_SCST_MAX, &ctx->Seed[PS_SCST_SD]);
    TEXT(PS_CMNT_LEN, &ctx->Seed[PS_CMNT_SD], p->s[snum].comment);
    p->s[snum].clen = (int)strlen(p->s[snum].comment);
  }
  return (0);
}

long mk_supp(DSS_HUGE index, supplier_t* s, DBGenContext* ctx) {
  DSS_HUGE i, bad_press, noise, offset, type;
  static int bInit = 0;
  static char szFormat[100];

  if (!bInit) {
    sprintf(szFormat, S_NAME_FMT, 9, &HUGE_FORMAT[1]);
    bInit = 1;
  }
  s->suppkey = index;
  sprintf(s->name, szFormat, S_NAME_TAG, index);
  V_STR(S_ADDR_LEN, &ctx->Seed[S_ADDR_SD], s->address);
  s->alen = (int)strlen(s->address);
  RANDOM(i, 0, nations.count - 1, &ctx->Seed[S_NTRG_SD]);
  s->nation_code = i;
  gen_phone(i, s->phone, &ctx->Seed[S_PHNE_SD]);
  RANDOM(s->acctbal, S_ABAL_MIN, S_ABAL_MAX, &ctx->Seed[S_ABAL_SD]);

  TEXT(S_CMNT_LEN, &ctx->Seed[S_CMNT_SD], s->comment);
  s->clen = (int)strlen(s->comment);
  /*
   * these calls should really move inside the if stmt below, but this
   * will simplify seedless parallel load
   */
  RANDOM(bad_press, 1, 10000, &ctx->Seed[BBB_CMNT_SD]);
  RANDOM(type, 0, 100, &ctx->Seed[BBB_TYPE_SD]);
  RANDOM(noise, 0, (s->clen - BBB_CMNT_LEN), &ctx->Seed[BBB_JNK_SD]);
  RANDOM(
      offset, 0, (s->clen - (BBB_CMNT_LEN + noise)), &ctx->Seed[BBB_OFFSET_SD]);
  if (bad_press <= S_CMNT_BBB) {
    type = (type < BBB_DEADBEATS) ? 0 : 1;
    memcpy(s->comment + offset, BBB_BASE, BBB_BASE_LEN);
    if (type == 0)
      memcpy(
          s->comment + BBB_BASE_LEN + offset + noise,
          BBB_COMPLAIN,
          BBB_TYPE_LEN);
    else
      memcpy(
          s->comment + BBB_BASE_LEN + offset + noise,
          BBB_COMMEND,
          BBB_TYPE_LEN);
  }
  return (0);
}

struct {
  char* mdes;
  long days;
  long dcnt;
} months[] =

    {{NULL, 0, 0},
     {"JAN", 31, 31},
     {"FEB", 28, 59},
     {"MAR", 31, 90},
     {"APR", 30, 120},
     {"MAY", 31, 151},
     {"JUN", 30, 181},
     {"JUL", 31, 212},
     {"AUG", 31, 243},
     {"SEP", 30, 273},
     {"OCT", 31, 304},
     {"NOV", 30, 334},
     {"DEC", 31, 365}};

long mk_time(DSS_HUGE index, dss_time_t* t) {
  long m = 0;
  long y;
  long d;

  t->timekey = index + JDAY_BASE;
  y = julian(index + STARTDATE - 1) / 1000;
  d = julian(index + STARTDATE - 1) % 1000;
  while (d > months[m].dcnt + LEAP_ADJ(y, m))
    m++;
  PR_DATE(
      t->alpha, y, m, d - months[m - 1].dcnt - ((LEAP(y) && m > 2) ? 1 : 0));
  t->year = 1900 + y;
  t->month = m + 12 * y + JMNTH_BASE;
  t->week = (d + T_START_DAY - 1) / 7 + 1;
  t->day = d - months[m - 1].dcnt - LEAP_ADJ(y, m - 1);

  return (0);
}

int mk_nation(DSS_HUGE index, code_t* c, DBGenContext* ctx) {
  c->code = index - 1;
  c->text = nations.list[index - 1].text;
  c->join = nations.list[index - 1].weight;
  TEXT(N_CMNT_LEN, &ctx->Seed[N_CMNT_SD], c->comment);
  c->clen = (int)strlen(c->comment);
  return (0);
}

int mk_region(DSS_HUGE index, code_t* c, DBGenContext* ctx) {
  c->code = index - 1;
  c->text = regions.list[index - 1].text;
  c->join = 0; /* for completeness */
  TEXT(R_CMNT_LEN, &ctx->Seed[R_CMNT_SD], c->comment);
  c->clen = (int)strlen(c->comment);
  return (0);
}
